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Global changes in total and wind electricity (1990–2014)

1 Department of Economic Analysis and Political Economy, Faculty of Economics and Business Sciences, University of Seville, Ramon y Cajal 1, 41018 Seville, Spain
2 Department of Financial Economy and Operations Management, Faculty of Economics and Business Sciences, University of Seville, Ramon y Cajal 1, 41018 Seville, Spain

Topical Section: Wind Energy

Wind energy is one of the renewable energies which have less adverse environmental impact and is becoming economically affordable long before several other renewable energies. Over recent years, substantial additions have been noted in wind energy capacity, although many differences can be observed between countries. Using the latest available data, this paper provides a concise analysis of wind energy and electricity consumption trends for the period 1990–2014 in a dual perspective, by principal world regions and by per capita gross national income levels in 2014. Electricity consumption has been divided into three types of energy: non-renewable, renewable excluding wind and wind energy. Annual rates of change, energy intensity, energy in per capita terms and some ratios have been analyzed. Notable regional differences and trends are observed in the studied variables. The first 15 European Union countries, other developed countries (ODC) and East Asian (EAS) and South Asian countries (SAS) are the regions which currently have the highest wind capacity.
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1. Burleson E (2016) Paris agreement and consensus to address climate challenge. Social Science Electronic Publishing.

2. UNFCCC (2015) Adoption of the Paris agreement. Available from: https://unfccc.int/ resource/docs/2015/cop21/eng/l09r01.pdf.

3. Climate Action Tracker (2015) Paris agreement: near-term actions do not match long term purpose-but stage is set to ramp up climate action. Available from: http://climateactiontracker.org/assets/publications/briefing_papers/CAT_COP21_Paris_Agreement_statement.pdf.

4. Brauers H, Richter PM (2016) The Paris climate agreement: is it sufficient to limit climate change? DIW Roundup: Politik im Fokus, No. 91.

5. IEA, CO2 emissions from fuel combustion. International Energy Agency, 2015. Available from: https://www.iea.org/publications/freepublications/publication/CO2EmissionsFromFuelCombustionHighlights2015.pdf.

6. IEA, Energy and climate change. International Energy Agency, 2105. Available from: https://www.iea.org/publications/freepublications/publication/WEO2015SpecialReportonEnergyandClimateChange.pdf.

7. Premalatha M, Abbasi T, Abbasi SA (2014) Wind energy: increasing deployment, rising environmental concerns. Renew Sust Energ Rev 31: 270–288.

8. IEA (2016) Electricity Information 2016. Paris: IEA.

9. Scarlat N, Dallemand JF, Monforti FF, et al. (2015) Renewable energy policy framework and bioenergy contribution in the European Union-an overview from national renewable energy action plans and progress reports. Renew Sust Energ Rev 51: 969–985.    

10. Dent CM (2013) Wind energy development in East Asia and Europe. Asia Eur J 11: 211–230.    

11. Mohammed YS, Mustafa MW, Bashir N (2013) Status of renewable energy consumption and developmental challenges in Sub-Sahara Africa. Renew Sust Energ Rev 27: 453–463.    

12. Chingulpitak S, Wongwises S (2014) Critical review of the current status of wind energy in Thailand. Renew Sust Energ Rev 31: 312–318.    

13. Ho LW (2016) Wind energy in Malaysia: past, present and future. Renew Sust Energ Rev 53: 279–295.    

14. Kaplan YA (2015) Overview of wind energy in the world and assessment of current wind energy policies in Turkey. Renew Sust Energ Rev 43: 562–568.    

15. Leung DY, Yang Y (2012) Wind energy development and its environmental impact: a review. Renew Sust Energ Rev 16: 1031–1039.    

16. Mundaca L, Markandya A, Nørgaard J (2013) Walking away from a low-carbon economy? Recent and historical trends using a regional decomposition analysis. Energ Policy 61: 1471–1480.

17. IEA, Key electricity trends. International Energy Agency, 2016. Available from: https://www.iea.org/publications/freepublications/publication/KeyElectricityTrends.pdf.

18. IEA (2016) Renewables Information 2016. Paris: IEA.

19. IEA, Key renewables trends. International Energy Agency, 2016. Available from: https://www.iea.org/publications/freepublications/publication/KeyRenewablesTrends.pdf.

20. Bridge G, Bouzarovski S, Bradshaw M, et al. (2013). Geographies of energy transition: space, place and the low-carbon economy. Energ Policy 53: 331–340.    

21. Pablo RMP, Pozo BR, Yñiguez R (2017) Global changes in residential energy consumption. Energ Policy 101: 342–352.    

22. World Bank (2017). World Bank Open Data. Available from: http://data.worldbank.org/.

23. United Nations (2015) World Economic Situation and Prospects 2015. New York: United Nations. Available from: http://www.un.org/en/development/desa/policy/wesp/wesp_ archive/ 2015wesp_ full_en.pdf.

24. IEA, Monthly electricity statistics. International Energy Agency, 2016. Available from: https://www.iea.org/statistics/monthlystatistics/monthlyelectricitystatistics/.

25. IEA, Statistics. International Energy Agency, 2016. Available from: http://www.iea.org/statistics/.

26. Apergis N, Payne JE (2011) A dynamic panel study of economic development and the electricity consumption-growth nexus. Energ Econ 33: 770–781.    

27. Ferguson R, Hill R, Craggs C, et al. (1997) Benefits of electricity generation. Eng Sci Educ J 6: 255–259.    

28. Ferguson R, Wilkinson W, Hill R (2000) Electricity use and economic development. Energ policy 28: 923–934.    

29. European Commission (1997) Communication from the Commission. Energy for the future: renewable sources of energy. Available from: http://europa.eu/documents/comm/white_ papers/pdf/com97_599_en.pdf.

30. Kitzing L, Mitchell C, Morthorst PE (2012) Renewable energy policies in Europe: converging or diverging? Energ Policy 51: 192–201.    

31. Kaldellis JK, Zafirakis D (2011) The wind energy (r) evolution: a short review of a long history. Renew Energ 36: 1887–1901.    

32. Lo K (2014) A critical review of China's rapidly developing renewable energy and energy efficiency policies. Renew Sust Energ Rev 29: 508–516.    

33. Schuman S, Lin A (2012) China's renewable energy law and its impact on renewable power in China: progress, challenges and recommendations for improving implementation. Energ policy 51: 89–109.    

34. Kumar Y, Ringenberg J, Depuru SS, et al. (2016) Wind energy: trends and enabling technologies. Renew Sust Energ Rev 53: 209–224.    

35. UNEP (2016) Global trends in renewable energy investment 2016. Frankfurt: United Nations Environment Programme-Frankfurt School of Finance & Management gGmbH 2016.

36. REN21 (2016) Renewables 2016 global status report. Paris: REN21. Available from: http://www.buildup.eu/en/practices/publications/renewables-2016-global-status-report.

37. OECD (2013) Renewable energies in the Middle East and North Africa: policies to support private investment, OECD Publishing.

38. Kahia M, Kadria M, Aissa MSB, et al. (2017) Modelling the treatment effect of renewable energy policies on economic growth: evaluation from mena countries. J Cleaner Prod, In press.

39. Biermann F, Brohm R (2004) Implementing the Kyoto protocol without the USA: the strategic role of energy tax adjustments at the border. Clim Policy 4: 289–302.    

40. Wang Q, Chen X, Jha AN, et al. (2014) Natural gas from shale formation-the evolution, evidences and challenges of shale gas revolution in United States. Renew Sust Energ Rev 30: 1–28.    

41. Newell RG, Raimi D (2014) Implications of shale gas development for climate change. Environ Sci Technol 48: 8360–8368.    

42. Karanfil FLY (2015) Electricity consumption and economic growth: exploring panel-specific differences. Energ Policy 82: 264–277.    

43. Karmellos M, Kopidou D, Diakoulaki D (2016). A decomposition analysis of the driving factors of CO2 (Carbon dioxide) emissions from the power sector in the European Union countries. Energy 94: 680–692.    

44. Balza L, Espinasa R, Serebrisky T (2016) Lights on: energy needs in latin america and the caribbean to 2040. Inter-American Development Bank.

45. Al-Mulali U, Fereidouni HG, Lee JY (2014) Electricity consumption from renewable and non-renewable sources and economic growth: evidence from Latin American countries. Renew Sust Energ Rev 30: 290–298.    

46. REN21 (2013). MENA Renewables Status Report, Paris: REN21.

47. Kim YS (2015). Electricity consumption and economic development: are countries converging to a common trend? Energ Econ 49: 192–202.

48. Brizga J, Feng K, Hubacek K (2013) Drivers of CO2 emissions in the former Soviet Union: a country level IPAT analysis from 1990 to 2010. Energy 59: 743–753.    

49. Chang Y, Choi Y, Kim CS et al. (2016) Disentangling temporal patterns in elasticities: a functional coefficient panel analysis of electricity demand. Energ Econ 60: 232–243.    

50. Pablo RMP, Sánchez BA (2017) The changing of the relationships between carbon footprints and final demand: panel data evidence for 40 major countries. Energ Econ 61: 8–20.    

51. United Nations (1998). Kyoto protocol to the United Nations framework convention on climate change. Rev Eur Commun Int Environ Law 7: 214–217.    

52. EEA (2016). Renewable energy in Europe 2016 recent growth and knock-on effects. Luxemburg, European Environment Agency. Available from: http://admin.indiaenvironmentportal.org.in/ files/file/Renewable%20energy%20in%20Europe.pdf.

53. Ölz S, Sims R, Kirchner N (2007). Contribution of renewables to energy security. Available from: http://www.qualenergia.it/UserFiles/Files/contribution%20of%20renewables%20to%20energy%20security.pdf.

54. IHA (2016) 2016 Key Trends in Hydropower. London: International Hydropower Association.

55. Serrano GJ, Lacal AR. (2016). Technological evolution of onshore wind turbines-a market based analysis. Wind Energ 19: 2171–2187.    

56. Hiroux C, Saguan M (2010). Large-scale wind power in European electricity markets: time for revisiting support schemes and market designs? Energ Policy 38: 3135–3145.    

57. Lucas H, Ferroukhi R, Hawila D (2013). Renewable energy auctions in developing countries, International Renewable Energy Agency (IRENA).

58. Boie I, Held A, Ragwitz M (2014). Barriers and drivers framing the diffusion of renewable energy technologies. In: renewables in the EU: policy performance, drivers and barriers. 1st DIACORE-CEPS Policy Workshop.

Copyright Info: © 2017, María del P. Pablo-Romero, et al., licensee AIMS Press. This is an open access article distributed under the terms of the Creative Commons Attribution Licese (http://creativecommons.org/licenses/by/4.0)

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